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/*
* Copyright (c) 2008-2009, Motorola, Inc.
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* - Neither the name of the Motorola, Inc. nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
package javax.obex;
import android.util.Log;
import java.io.InputStream;
import java.io.IOException;
import java.io.OutputStream;
/**
* This class in an implementation of the OBEX ServerSession.
* @hide
*/
public final class ServerSession extends ObexSession implements Runnable {
private static final String TAG = "Obex ServerSession";
private ObexTransport mTransport;
private InputStream mInput;
private OutputStream mOutput;
private ServerRequestHandler mListener;
private Thread mProcessThread;
private int mMaxPacketLength;
private boolean mClosed;
/**
* Creates new ServerSession.
* @param trans the connection to the client
* @param handler the event listener that will process requests
* @param auth the authenticator to use with this connection
* @throws IOException if an error occurred while opening the input and
* output streams
*/
public ServerSession(ObexTransport trans, ServerRequestHandler handler, Authenticator auth)
throws IOException {
mAuthenticator = auth;
mTransport = trans;
mInput = mTransport.openInputStream();
mOutput = mTransport.openOutputStream();
mListener = handler;
mMaxPacketLength = 256;
mClosed = false;
mProcessThread = new Thread(this);
mProcessThread.start();
}
/**
* Processes requests made to the server and forwards them to the
* appropriate event listener.
*/
public void run() {
try {
boolean done = false;
while (!done && !mClosed) {
int requestType = mInput.read();
switch (requestType) {
case ObexHelper.OBEX_OPCODE_CONNECT:
handleConnectRequest();
break;
case ObexHelper.OBEX_OPCODE_DISCONNECT:
handleDisconnectRequest();
done = true;
break;
case ObexHelper.OBEX_OPCODE_GET:
case ObexHelper.OBEX_OPCODE_GET_FINAL:
handleGetRequest(requestType);
break;
case ObexHelper.OBEX_OPCODE_PUT:
case ObexHelper.OBEX_OPCODE_PUT_FINAL:
handlePutRequest(requestType);
break;
case ObexHelper.OBEX_OPCODE_SETPATH:
handleSetPathRequest();
break;
case ObexHelper.OBEX_OPCODE_ABORT:
handleAbortRequest();
break;
case -1:
done = true;
break;
default:
/*
* Received a request type that is not recognized so I am
* just going to read the packet and send a not implemented
* to the client
*/
int length = mInput.read();
length = (length << 8) + mInput.read();
for (int i = 3; i < length; i++) {
mInput.read();
}
sendResponse(ResponseCodes.OBEX_HTTP_NOT_IMPLEMENTED, null);
}
}
} catch (NullPointerException e) {
Log.d(TAG, e.toString());
} catch (Exception e) {
Log.d(TAG, e.toString());
}
close();
}
/**
* Handles a ABORT request from a client. This method will read the rest of
* the request from the client. Assuming the request is valid, it will
* create a <code>HeaderSet</code> object to pass to the
* <code>ServerRequestHandler</code> object. After the handler processes the
* request, this method will create a reply message to send to the server.
*
* @throws IOException if an error occurred at the transport layer
*/
private void handleAbortRequest() throws IOException {
int code = ResponseCodes.OBEX_HTTP_OK;
HeaderSet request = new HeaderSet();
HeaderSet reply = new HeaderSet();
int length = mInput.read();
length = (length << 8) + mInput.read();
if (length > ObexHelper.MAX_PACKET_SIZE_INT) {
code = ResponseCodes.OBEX_HTTP_REQ_TOO_LARGE;
} else {
for (int i = 3; i < length; i++) {
mInput.read();
}
code = mListener.onAbort(request, reply);
Log.v(TAG, "onAbort request handler return value- " + code);
code = validateResponseCode(code);
}
sendResponse(code, null);
}
/**
* Handles a PUT request from a client. This method will provide a
* <code>ServerOperation</code> object to the request handler. The
* <code>ServerOperation</code> object will handle the rest of the request.
* It will also send replies and receive requests until the final reply
* should be sent. When the final reply should be sent, this method will get
* the response code to use and send the reply. The
* <code>ServerOperation</code> object will always reply with a
* OBEX_HTTP_CONTINUE reply. It will only reply if further information is
* needed.
* @param type the type of request received; either 0x02 or 0x82
* @throws IOException if an error occurred at the transport layer
*/
private void handlePutRequest(int type) throws IOException {
ServerOperation op = new ServerOperation(this, mInput, type, mMaxPacketLength, mListener);
try {
int response = -1;
if ((op.finalBitSet) && !op.isValidBody()) {
response = validateResponseCode(mListener
.onDelete(op.requestHeader, op.replyHeader));
} else {
response = validateResponseCode(mListener.onPut(op));
}
if (response != ResponseCodes.OBEX_HTTP_OK && !op.isAborted) {
op.sendReply(response);
} else if (!op.isAborted) {
// wait for the final bit
while (!op.finalBitSet) {
op.sendReply(ResponseCodes.OBEX_HTTP_CONTINUE);
}
op.sendReply(response);
}
} catch (Exception e) {
/*To fix bugs in aborted cases,
*(client abort file transfer prior to the last packet which has the end of body header,
*internal error should not be sent because server has already replied with
*OK response in "sendReply")
*/
if (!op.isAborted) {
sendResponse(ResponseCodes.OBEX_HTTP_INTERNAL_ERROR, null);
}
}
}
/**
* Handles a GET request from a client. This method will provide a
* <code>ServerOperation</code> object to the request handler. The
* <code>ServerOperation</code> object will handle the rest of the request.
* It will also send replies and receive requests until the final reply
* should be sent. When the final reply should be sent, this method will get
* the response code to use and send the reply. The
* <code>ServerOperation</code> object will always reply with a
* OBEX_HTTP_CONTINUE reply. It will only reply if further information is
* needed.
* @param type the type of request received; either 0x03 or 0x83
* @throws IOException if an error occurred at the transport layer
*/
private void handleGetRequest(int type) throws IOException {
ServerOperation op = new ServerOperation(this, mInput, type, mMaxPacketLength, mListener);
try {
int response = validateResponseCode(mListener.onGet(op));
if (!op.isAborted) {
op.sendReply(response);
}
} catch (Exception e) {
sendResponse(ResponseCodes.OBEX_HTTP_INTERNAL_ERROR, null);
}
}
/**
* Send standard response.
* @param code the response code to send
* @param header the headers to include in the response
* @throws IOException if an IO error occurs
*/
public void sendResponse(int code, byte[] header) throws IOException {
int totalLength = 3;
byte[] data = null;
if (header != null) {
totalLength += header.length;
data = new byte[totalLength];
data[0] = (byte)code;
data[1] = (byte)(totalLength >> 8);
data[2] = (byte)totalLength;
System.arraycopy(header, 0, data, 3, header.length);
} else {
data = new byte[totalLength];
data[0] = (byte)code;
data[1] = (byte)0x00;
data[2] = (byte)totalLength;
}
mOutput.write(data);
mOutput.flush();
}
/**
* Handles a SETPATH request from a client. This method will read the rest
* of the request from the client. Assuming the request is valid, it will
* create a <code>HeaderSet</code> object to pass to the
* <code>ServerRequestHandler</code> object. After the handler processes the
* request, this method will create a reply message to send to the server
* with the response code provided.
* @throws IOException if an error occurred at the transport layer
*/
private void handleSetPathRequest() throws IOException {
int length;
int flags;
@SuppressWarnings("unused")
int constants;
int totalLength = 3;
byte[] head = null;
int code = -1;
int bytesReceived;
HeaderSet request = new HeaderSet();
HeaderSet reply = new HeaderSet();
length = mInput.read();
length = (length << 8) + mInput.read();
flags = mInput.read();
constants = mInput.read();
if (length > ObexHelper.MAX_PACKET_SIZE_INT) {
code = ResponseCodes.OBEX_HTTP_REQ_TOO_LARGE;
totalLength = 3;
} else {
if (length > 5) {
byte[] headers = new byte[length - 5];
bytesReceived = mInput.read(headers);
while (bytesReceived != headers.length) {
bytesReceived += mInput.read(headers, bytesReceived, headers.length
- bytesReceived);
}
ObexHelper.updateHeaderSet(request, headers);
if (mListener.getConnectionId() != -1 && request.mConnectionID != null) {
mListener.setConnectionId(ObexHelper.convertToLong(request.mConnectionID));
} else {
mListener.setConnectionId(1);
}
// the Auth chan is initiated by the server, client sent back the authResp .
if (request.mAuthResp != null) {
if (!handleAuthResp(request.mAuthResp)) {
code = ResponseCodes.OBEX_HTTP_UNAUTHORIZED;
mListener.onAuthenticationFailure(ObexHelper.getTagValue((byte)0x01,
request.mAuthResp));
}
request.mAuthResp = null;
}
}
if (code != ResponseCodes.OBEX_HTTP_UNAUTHORIZED) {
// the Auth challenge is initiated by the client
// the server will send back the authResp to the client
if (request.mAuthChall != null) {
handleAuthChall(request);
reply.mAuthResp = new byte[request.mAuthResp.length];
System.arraycopy(request.mAuthResp, 0, reply.mAuthResp, 0,
reply.mAuthResp.length);
request.mAuthChall = null;
request.mAuthResp = null;
}
boolean backup = false;
boolean create = true;
if (!((flags & 1) == 0)) {
backup = true;
}
if (!((flags & 2) == 0)) {
create = false;
}
try {
code = mListener.onSetPath(request, reply, backup, create);
} catch (Exception e) {
sendResponse(ResponseCodes.OBEX_HTTP_INTERNAL_ERROR, null);
return;
}
code = validateResponseCode(code);
if (reply.nonce != null) {
mChallengeDigest = new byte[16];
System.arraycopy(reply.nonce, 0, mChallengeDigest, 0, 16);
} else {
mChallengeDigest = null;
}
long id = mListener.getConnectionId();
if (id == -1) {
reply.mConnectionID = null;
} else {
reply.mConnectionID = ObexHelper.convertToByteArray(id);
}
head = ObexHelper.createHeader(reply, false);
totalLength += head.length;
if (totalLength > mMaxPacketLength) {
totalLength = 3;
head = null;
code = ResponseCodes.OBEX_HTTP_INTERNAL_ERROR;
}
}
}
// Compute Length of OBEX SETPATH packet
byte[] replyData = new byte[totalLength];
replyData[0] = (byte)code;
replyData[1] = (byte)(totalLength >> 8);
replyData[2] = (byte)totalLength;
if (head != null) {
System.arraycopy(head, 0, replyData, 3, head.length);
}
/*
* Write the OBEX SETPATH packet to the server. Byte 0: response code
* Byte 1&2: Connect Packet Length Byte 3 to n: headers
*/
mOutput.write(replyData);
mOutput.flush();
}
/**
* Handles a disconnect request from a client. This method will read the
* rest of the request from the client. Assuming the request is valid, it
* will create a <code>HeaderSet</code> object to pass to the
* <code>ServerRequestHandler</code> object. After the handler processes the
* request, this method will create a reply message to send to the server.
* @throws IOException if an error occurred at the transport layer
*/
private void handleDisconnectRequest() throws IOException {
int length;
int code = ResponseCodes.OBEX_HTTP_OK;
int totalLength = 3;
byte[] head = null;
int bytesReceived;
HeaderSet request = new HeaderSet();
HeaderSet reply = new HeaderSet();
length = mInput.read();
length = (length << 8) + mInput.read();
if (length > ObexHelper.MAX_PACKET_SIZE_INT) {
code = ResponseCodes.OBEX_HTTP_REQ_TOO_LARGE;
totalLength = 3;
} else {
if (length > 3) {
byte[] headers = new byte[length - 3];
bytesReceived = mInput.read(headers);
while (bytesReceived != headers.length) {
bytesReceived += mInput.read(headers, bytesReceived, headers.length
- bytesReceived);
}
ObexHelper.updateHeaderSet(request, headers);
}
if (mListener.getConnectionId() != -1 && request.mConnectionID != null) {
mListener.setConnectionId(ObexHelper.convertToLong(request.mConnectionID));
} else {
mListener.setConnectionId(1);
}
if (request.mAuthResp != null) {
if (!handleAuthResp(request.mAuthResp)) {
code = ResponseCodes.OBEX_HTTP_UNAUTHORIZED;
mListener.onAuthenticationFailure(ObexHelper.getTagValue((byte)0x01,
request.mAuthResp));
}
request.mAuthResp = null;
}
if (code != ResponseCodes.OBEX_HTTP_UNAUTHORIZED) {
if (request.mAuthChall != null) {
handleAuthChall(request);
request.mAuthChall = null;
}
try {
mListener.onDisconnect(request, reply);
} catch (Exception e) {
sendResponse(ResponseCodes.OBEX_HTTP_INTERNAL_ERROR, null);
return;
}
long id = mListener.getConnectionId();
if (id == -1) {
reply.mConnectionID = null;
} else {
reply.mConnectionID = ObexHelper.convertToByteArray(id);
}
head = ObexHelper.createHeader(reply, false);
totalLength += head.length;
if (totalLength > mMaxPacketLength) {
totalLength = 3;
head = null;
code = ResponseCodes.OBEX_HTTP_INTERNAL_ERROR;
}
}
}
// Compute Length of OBEX CONNECT packet
byte[] replyData;
if (head != null) {
replyData = new byte[3 + head.length];
} else {
replyData = new byte[3];
}
replyData[0] = (byte)code;
replyData[1] = (byte)(totalLength >> 8);
replyData[2] = (byte)totalLength;
if (head != null) {
System.arraycopy(head, 0, replyData, 3, head.length);
}
/*
* Write the OBEX DISCONNECT packet to the server. Byte 0: response code
* Byte 1&2: Connect Packet Length Byte 3 to n: headers
*/
mOutput.write(replyData);
mOutput.flush();
}
/**
* Handles a connect request from a client. This method will read the rest
* of the request from the client. Assuming the request is valid, it will
* create a <code>HeaderSet</code> object to pass to the
* <code>ServerRequestHandler</code> object. After the handler processes the
* request, this method will create a reply message to send to the server
* with the response code provided.
* @throws IOException if an error occurred at the transport layer
*/
private void handleConnectRequest() throws IOException {
int packetLength;
@SuppressWarnings("unused")
int version;
@SuppressWarnings("unused")
int flags;
int totalLength = 7;
byte[] head = null;
int code = -1;
HeaderSet request = new HeaderSet();
HeaderSet reply = new HeaderSet();
int bytesReceived;
/*
* Read in the length of the OBEX packet, OBEX version, flags, and max
* packet length
*/
packetLength = mInput.read();
packetLength = (packetLength << 8) + mInput.read();
version = mInput.read();
flags = mInput.read();
mMaxPacketLength = mInput.read();
mMaxPacketLength = (mMaxPacketLength << 8) + mInput.read();
// should we check it?
if (mMaxPacketLength > ObexHelper.MAX_PACKET_SIZE_INT) {
mMaxPacketLength = ObexHelper.MAX_PACKET_SIZE_INT;
}
if (packetLength > ObexHelper.MAX_PACKET_SIZE_INT) {
code = ResponseCodes.OBEX_HTTP_REQ_TOO_LARGE;
totalLength = 7;
} else {
if (packetLength > 7) {
byte[] headers = new byte[packetLength - 7];
bytesReceived = mInput.read(headers);
while (bytesReceived != headers.length) {
bytesReceived += mInput.read(headers, bytesReceived, headers.length
- bytesReceived);
}
ObexHelper.updateHeaderSet(request, headers);
}
if (mListener.getConnectionId() != -1 && request.mConnectionID != null) {
mListener.setConnectionId(ObexHelper.convertToLong(request.mConnectionID));
} else {
mListener.setConnectionId(1);
}
if (request.mAuthResp != null) {
if (!handleAuthResp(request.mAuthResp)) {
code = ResponseCodes.OBEX_HTTP_UNAUTHORIZED;
mListener.onAuthenticationFailure(ObexHelper.getTagValue((byte)0x01,
request.mAuthResp));
}
request.mAuthResp = null;
}
if (code != ResponseCodes.OBEX_HTTP_UNAUTHORIZED) {
if (request.mAuthChall != null) {
handleAuthChall(request);
reply.mAuthResp = new byte[request.mAuthResp.length];
System.arraycopy(request.mAuthResp, 0, reply.mAuthResp, 0,
reply.mAuthResp.length);
request.mAuthChall = null;
request.mAuthResp = null;
}
try {
code = mListener.onConnect(request, reply);
code = validateResponseCode(code);
if (reply.nonce != null) {
mChallengeDigest = new byte[16];
System.arraycopy(reply.nonce, 0, mChallengeDigest, 0, 16);
} else {
mChallengeDigest = null;
}
long id = mListener.getConnectionId();
if (id == -1) {
reply.mConnectionID = null;
} else {
reply.mConnectionID = ObexHelper.convertToByteArray(id);
}
head = ObexHelper.createHeader(reply, false);
totalLength += head.length;
if (totalLength > mMaxPacketLength) {
totalLength = 7;
head = null;
code = ResponseCodes.OBEX_HTTP_INTERNAL_ERROR;
}
} catch (Exception e) {
e.printStackTrace();
totalLength = 7;
head = null;
code = ResponseCodes.OBEX_HTTP_INTERNAL_ERROR;
}
}
}
// Compute Length of OBEX CONNECT packet
byte[] length = ObexHelper.convertToByteArray(totalLength);
/*
* Write the OBEX CONNECT packet to the server. Byte 0: response code
* Byte 1&2: Connect Packet Length Byte 3: OBEX Version Number
* (Presently, 0x10) Byte 4: Flags (For TCP 0x00) Byte 5&6: Max OBEX
* Packet Length (Defined in MAX_PACKET_SIZE) Byte 7 to n: headers
*/
byte[] sendData = new byte[totalLength];
sendData[0] = (byte)code;
sendData[1] = length[2];
sendData[2] = length[3];
sendData[3] = (byte)0x10;
sendData[4] = (byte)0x00;
sendData[5] = (byte)(ObexHelper.MAX_PACKET_SIZE_INT >> 8);
sendData[6] = (byte)(ObexHelper.MAX_PACKET_SIZE_INT & 0xFF);
if (head != null) {
System.arraycopy(head, 0, sendData, 7, head.length);
}
mOutput.write(sendData);
mOutput.flush();
}
/**
* Closes the server session - in detail close I/O streams and the
* underlying transport layer. Internal flag is also set so that later
* attempt to read/write will throw an exception.
*/
public synchronized void close() {
if (mListener != null) {
mListener.onClose();
}
try {
mInput.close();
mOutput.close();
mTransport.close();
mClosed = true;
} catch (Exception e) {
}
mTransport = null;
mInput = null;
mOutput = null;
mListener = null;
}
/**
* Verifies that the response code is valid. If it is not valid, it will
* return the <code>OBEX_HTTP_INTERNAL_ERROR</code> response code.
* @param code the response code to check
* @return the valid response code or <code>OBEX_HTTP_INTERNAL_ERROR</code>
* if <code>code</code> is not valid
*/
private int validateResponseCode(int code) {
if ((code >= ResponseCodes.OBEX_HTTP_OK) && (code <= ResponseCodes.OBEX_HTTP_PARTIAL)) {
return code;
}
if ((code >= ResponseCodes.OBEX_HTTP_MULT_CHOICE)
&& (code <= ResponseCodes.OBEX_HTTP_USE_PROXY)) {
return code;
}
if ((code >= ResponseCodes.OBEX_HTTP_BAD_REQUEST)
&& (code <= ResponseCodes.OBEX_HTTP_UNSUPPORTED_TYPE)) {
return code;
}
if ((code >= ResponseCodes.OBEX_HTTP_INTERNAL_ERROR)
&& (code <= ResponseCodes.OBEX_HTTP_VERSION)) {
return code;
}
if ((code >= ResponseCodes.OBEX_DATABASE_FULL)
&& (code <= ResponseCodes.OBEX_DATABASE_LOCKED)) {
return code;
}
return ResponseCodes.OBEX_HTTP_INTERNAL_ERROR;
}
}